Wiki User
∙ 12y agoAs you increase the magnification, the field of view decreases.
Wiki User
∙ 12y agoAs you increase the magnification, the field of view decreases.
As the magnification of the objective increases, the FOV decreases
As magnification increases, the field of view decreases. This is because higher magnification enlarges the image being viewed, resulting in a smaller portion of the specimen being visible in the field of view. Conversely, decreasing magnification expands the field of view, allowing more of the specimen to be seen at once.
size ratio is basiclly magnification.... just on a higher level. trust me im a scientist i know alot about this stuff :)
The object size will depend on the magnification of the viewing system. If the magnification is known, the object size can be determined by multiplying the field of view by the magnification factor.
0.75 mm way to get this answer........... (diameter of field A X total magnification of field A) / total magnification of field B so start by finding the diameter of field A= which is the 1.5 next figure out what the total magnification of field A is= 150 (you get this answer by multiplying the ocular # which is 10x by the objective # which is 15x. (10 x 15= 150) next figure out what the total magnification of field B is =300 (you get this answer by multiplying the ocular # which is 10x by the other higher objective # which is 30x. (10 x 30 = 300) then you can use the formula and plug in all the answers you got to get the answer (1.5mm x 150)/300=.75mm
As magnification increases, the field of view decreases, allowing for more details to be observed in the same area. This is because the lens is concentrating light on a smaller area, making it appear larger and magnified.
To calculate the size of the organism, you need to know the actual field of view at 100X total magnification. Without that information, it's not possible to determine the size of the organism measuring 5 omu. The size of the organism will depend on the field of view at that magnification.
To calculate the size of the organism, you would need to know the magnification of the microscope being used. Comparing the field diameter at 400x magnification with the actual size of the organism would give you the scale factor to determine the organism's size. For example, if the field diameter at 400x is 0.5 mm, and the actual size is 50 micrometers, then the organism is 10 times smaller than the field diameter.
The size of the image is a scaled representation of the original object, typically smaller or larger. The relationship between the size of the image and the size of the original object is determined by the magnification factor of the optical system used to capture the image.
The change in size of an image compared with the size of an object is termed magnification. This can be calculated as the ratio of the size of the image to the size of the object. Magnification can be expressed as magnification = image size / object size.
Magnification = Size drawn / Actual size